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CN2923086Y - Small-radius bent-pipe propelling system of automatic speed following and pressure curve setting - Google Patents

Small-radius bent-pipe propelling system of automatic speed following and pressure curve setting Download PDF

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Publication number
CN2923086Y
CN2923086Y CN 200620074829 CN200620074829U CN2923086Y CN 2923086 Y CN2923086 Y CN 2923086Y CN 200620074829 CN200620074829 CN 200620074829 CN 200620074829 U CN200620074829 U CN 200620074829U CN 2923086 Y CN2923086 Y CN 2923086Y
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CN
China
Prior art keywords
oil
valve
links
pressure
plunger pump
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN 200620074829
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Chinese (zh)
Inventor
周昌华
翟庆余
李亚中
潘顺满
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JIANG YIN MACHINE-BUILDING Inc
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JIANG YIN MACHINE-BUILDING Inc
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Priority to CN 200620074829 priority Critical patent/CN2923086Y/en
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Abstract

The utility model relates to a small radius elbow tube pushing system with the functions of automatic speed tracking and pressure curve setting. The utility model is characterized in that an oil outlet of a variable plunger pump (2) is connected with an oil inlet of a proportional throttle valve (2.1), an outlet of the proportional throttle valve (2.1) is connected with an oil inlet (P) of a reversing valve (7), a return opening (T) of the reversing valve (7) is connected with an oil bath, an oil outlet (A) and an oil inlet (B) of the reversing valve (7) are connected with a return chamber and a working space of a pushing oil cylinder (8); a proportional throttle valve (2.4) and a safety valve (2.5) are connected in a parallel manner between the oil outlet of the variable plunger pump (2) and the proportional throttle valve (2.1), and an oil outlet (B) and a valve plug balancing opening (a) of priority valve (2.3) are also connected in a parallel manner between the oil outlet of the variable plunger pump (2) and the proportional throttle valve (2.1); and the oil outlet (B) and the valve plug balancing opening (a) of a pressure-differentially-set valve are also connected in a parallel manner between the oil outlet of the variable plunger pump (2) and the proportional throttle valve (2.1). The utility model may realize an automatic matching between the pressure and flow of a pushing oil cylinder.

Description

Auto-speed is followed the minor radius bend pipe pushing tow system that sets with pressure curve
Technical field:
The utility model relates to a kind of small-radius pipe bender, the minor radius bend pipe pushing tow system that especially relate to a kind of ratio flow, pressure controlled auto-speed is followed and pressure curve is set.Be exclusively used in the control of minor radius bend pipe pushing tow system.Belong to the hydraulic control system technical field.
Background technology:
Before the utility model is made, minor radius bend pipe pushing tow system adopts manual Flow-rate adjustment and manual voltage regulation system to control usually, and pressure and flow can not mate automatically, and energy loss is bigger, can not speed change and variable force in the bend pipe process, can only the bigger pipe fitting of bending radius.
Summary of the invention:
The purpose of this utility model is to overcome above-mentioned deficiency, provides a kind of pressure of pipe bending cylinder and auto-speed that flow can mate automatically to follow the minor radius bend pipe pushing tow system that sets with pressure curve.
The purpose of this utility model is achieved in that a kind of auto-speed follows the minor radius bend pipe pushing tow system that sets with pressure curve, comprises Variable plunger pump and reversal valve, it is characterized in that:
The oil-out of a, Variable plunger pump links to each other with the oil-in of proportional throttle valve, the oil-out of proportional throttle valve links to each other with the oil-in of reversal valve, the oil return opening of reversal valve links to each other with oil sump, and the oil-out of reversal valve links to each other with the return cavity of pipe bending cylinder, and oil-out then links to each other with the working chamber of pipe bending cylinder;
B, between Variable plunger pump oil-out and proportional throttle valve, be connected in parallel proportional pressure valve and safety valve, proportional pressure valve is connected oil sump with the oil-out of safety valve;
C, between Variable plunger pump oil-out and proportional throttle valve, parallel connection picks out the oil-out and the spool balance port of constant pressure valve, and the valve core spring mouth of constant pressure valve links to each other with the oil-in of proportional pressure valve, oil return inlet T links to each other with the variable piston of Variable plunger pump;
D, between Variable plunger pump oil-out and proportional throttle valve, parallel connection picks out the oil-out and the spool balance port of deciding difference limen, and the valve core spring mouth of deciding difference limen links to each other with the oil-out of proportional throttle valve, decides the oil-out of the oil return opening of difference limen by constant pressure valve, and the oil-out of deciding difference limen links to each other with oil sump.
The utility model is no matter how import and export oil pressure changes, and passing ratio restriction flow is always normal value, makes oil cylinder operation balance, thus only need change restriction, but just balance changes the oil cylinder speed of service.Therefore the utility model can realize that pressure and flow mate automatically.
Description of drawings:
Fig. 1 follows the hydraulic system principle figure of the minor radius bend pipe pushing tow system that sets with pressure curve for the utility model auto-speed.
Fig. 2 is a pipe bending cylinder speed operation curve map, is finished by proportional throttle valve.
Fig. 3 is a pipe bending cylinder pushing tow pressure process curve map, is finished by proportional pressure valve.
Fig. 4 is a pipe fitting bend pipe schematic diagram.
Among Fig. 1: oil suction filter 1, Variable plunger pump 2, proportional throttle valve 2.1 is decided difference limen 2.2, constant pressure valve 2.3, proportional pressure valve 2.4, safety valve 2.5, variable piston 2.6, Pressure gauge 3 and 6, check valve 4 and 5, three position four-way directional control valve 7, pipe bending cylinder 8, restriction c and d, ratio coil S1 and S2.Heavy line is represented major loop among the figure, and fine line is represented control loop.
Among Fig. 4: pipe bending cylinder 8, pipe die 9, clamp 10, pivoted arm 11, jaw 12, push block 13.
The specific embodiment:
Referring to Fig. 1, auto-speed is followed the minor radius bend pipe pushing tow system that sets with pressure curve.
One, major loop connects
1, oil suction: Variable plunger pump 2 links to each other with oil suction filter 1 oil-out, and oil suction filter 1 communicates with oil sump, thereby finishes the oil suction of oil suction filter 1.
2, fuel-displaced: the oil-out of Variable plunger pump 2 links to each other with the oil-in of proportional throttle valve 2.1, the oil-out of proportional throttle valve 2.1 links to each other with the oil-in of check valve 5, the oil-out of check valve 5 then links to each other with the oil inlet P of three position four-way directional control valve 7, the oil return inlet T of three position four-way directional control valve 7 is led to the oil-in of check valve 4, make the oil return line of three position four-way directional control valve 7 produce certain negative pressure, in case surpass back pressure, then the oil-out of check valve 4 leads directly to oil sump, system oil return.And the oil-out A of three position four-way directional control valve 7 links to each other with the return cavity of pipe bending cylinder 8, and oil-out B then links to each other with the working chamber of pipe bending cylinder 8.
More than commutation by three position four-way directional control valve, constitute the work of pipe bending cylinder and return two action circuits, the opening degree of passing ratio choke valve 2.1 changes, to constitute the velocity variations loop of pipe bending cylinder.
3, pressure control major loop
Between Variable plunger pump 2 oil-outs and proportional throttle valve 2.1, proportional pressure valve 2.4 and safety valve 2.5 are being connected in parallel, proportional pressure valve 2.4 then directly is connected oil sump with the oil-out of safety valve 2.5, by safety valve 2.5, set system's maximum pressure, passing ratio pressure valve 2.4 initialization system pressure constitute pressure and change the loop.
Two, control loop connects
1, the level pressure control loop of proportional pressure valve
Between Variable plunger pump 2 oil-outs and proportional throttle valve 2.1, parallel connection picks out the oil-out B and the spool balance port a of constant pressure valve 2.3, and the valve core spring mouth b of constant pressure valve 2.3 links to each other with the oil-in of proportional pressure valve 2.4, and oil return inlet T links to each other with the variable piston 2.6 of Variable plunger pump 2.
By the action of constant pressure valve 2.3, Variable plunger pump 2 output pressures are remained on the pressure value of proportional pressure valve setting.
2, between Variable plunger pump 2 oil-outs and proportional throttle valve 2.1, parallel connection picks out oil-out B and the spool balance port a that decides difference limen 2.2, and the valve core spring mouth b that decides difference limen 2.2 links to each other with the oil-out of proportional throttle valve 2.1, decide the oil-out A of the oil return inlet T of difference limen 2.2 by constant pressure valve 2.3, the oil-out A that decides difference limen 2.2 links to each other with oil sump.By deciding the action of difference limen 2.2, make the pressure reduction (deciding a, the b mouth of difference limen 2.2) of the oil inlet and outlet of proportional throttle valve 2.1 keep a constant, make output flow stable.
Attention: decide difference limen 2.2 and link to each other with the variable piston 2.6 of Variable plunger pump 2 with the oil return inlet T of constant pressure valve 2.3, by deciding the action of difference limen 2.2 and constant pressure valve 2.3, make variable piston 2.6 actions of Variable plunger pump 2, make Variable plunger pump 2 variablees or transformation, the pressure and the flow of Variable plunger pump 2 outputs are complementary, reach best duty.
3, restriction c, d make control oil form pressure reduction before and after this oil oil circuit restriction.
4, Pressure gauge connects, in the oil-in indirect Pressure gauge 6 of check valve 5 with three position four-way directional control valve 7, the operating pressure that is used for observing pipe bending cylinder; Between Variable plunger pump 2 and proportional throttle valve 2.1, connect Pressure gauge 3, be used for detection variable plunger displacement pump oil-out pressure.
Three, operation principle
1, ratio flow operation principle
Referring to Fig. 1,2, Variable plunger pump 2 is from 1 oil suction of oil suction filter, the pressure oil one tunnel of the discharging proportional throttle valve 2.1 of flowing through, one road proportional pressure valve 2.4 of flowing through, the bend pipe parameter is set once the user, gives input signal of proportional amplifier by software by PLC analog quantity output unit, signal direct driving ratio coil S1 after amplifying produces a linear restriction, the flow that output needs, weight limit is that pressure reduction is set up by deciding difference limen 2.2 before and after the restriction, promptly P1-P2 is a definite value.Thereby ratio restriction pressure reduction is constant substantially, and constant pressure valve 2.3 principles are with deciding difference limen 2.2.
Can verify its pressure reduction by observing Pressure gauge 3 and 6, and flow system flow is directly proportional with restriction aperture and pressure reduction, so how to change no matter import and export oil pressure, passing ratio flow mouth flow is always normal value, make oil cylinder operation balance, so only need change restriction, but just balance changes the oil cylinder speed of service.
Fig. 2 shows not only flow adjustable size, and flow rises and descends, and the slope is also adjustable, can effectively reduce system shock, and the pressure curve of Fig. 4 also is like this.
Annotate: the bend pipe parameter is meant tube material, tube wall thickness, bending radius.
2, ratio pressure operation principle
Referring to Fig. 1,2, another road of pressure oil proportional pressure valve 2.4 of flowing through, the bend pipe parameter is once setting, give input signal of proportional amplifier by software by PLC simulate amount output unit, signal direct driving ratio coil S2 after amplifying produces a linear force and acts on proportional pressure valve 2.4 poppet valve cores, system produces setting pressure thus, in case superpressure, then constant pressure valve 2.3 commutations are to right position, both match, promote variable piston 2.6, make Variable plunger pump 2 variablees, prevent superpressure, unnecessary fluid then flows back to fuel tank through circular orifice, safety valve 2.5 is a manual voltage regulation then, is generally 250bar, plays safety effect.
Can realize in the bend pipe process that in addition make it meet pipe fitting distortion situation, this point is particularly important to the minor radius bend pipe, sees Fig. 3 according to any setting pressure curve of bent tube technique equally by the proportional amplifier input signal of continuous variation.
Four, other explanation
1, the direction of main valve is switched
The fluid of setting up is pushed check valve 5 three position four-way directional control valve 7 of flowing through open, the pressure of Pressure gauge 6 is the oil cylinder operating pressure, three position four-way directional control valve 7 has four hydraulic fluid ports, P represents oil-in, T represents oil return opening, and A and B represent to lead to two actuator ports of pipe bending cylinder 8, if coil a gets, then oil inlet P is led to actuator port B, actuator port A leads to oil return inlet T, and Fig. 4 is seen in pipe bending cylinder 8 work, drive jaw 12, follow pipe die 9 and move together, check valve 4 is contained on the oil circuit of oil return inlet T, can keep the loop to be full of fluid, and keep certain back pressure, reduce hydraulic shock.
Five, job description
Referring to Fig. 4, when crooked, clamp 10 is clipped in (radius of pipe die can change) on the pipe die 9 at pipe fitting, together rotates with pivoted arm 11, guide plate on the push block 13 is pushed down pipe fitting simultaneously, jaw 12 clamps pipe fitting then, is promoted by pipe bending cylinder 8, and the speed V that follows pipe die together synchronously pushes away forward, improved the state of pipe fitting distortion, the pipe fitting quality is improved, and the ratio hydraulic system of control top-pushing mechanism, for the requirement of this speed change, variable force provides condition.

Claims (4)

1, a kind of auto-speed is followed the minor radius bend pipe pushing tow system that sets with pressure curve, comprises Variable plunger pump (2) and reversal valve (7), it is characterized in that:
The oil-out of a, Variable plunger pump (2) links to each other with the oil-in of proportional throttle valve (2.1), the oil-out of proportional throttle valve (2.1) links to each other with the oil-in (P) of reversal valve (7), the oil return opening (T) of reversal valve (7) links to each other with oil sump, and the oil-out (A) of reversal valve (7) links to each other with the return cavity of pipe bending cylinder (8), and oil-out (B) then links to each other with the working chamber of pipe bending cylinder (8);
B, between Variable plunger pump (2) oil-out and proportional throttle valve (2.1), the proportional pressure valve that is being connected in parallel (2.4) and safety valve (2.5), proportional pressure valve (2.4) is connected oil sump with the oil-out of safety valve (2.5);
C, between Variable plunger pump (2) oil-out and proportional throttle valve (2.1), parallel connection picks out the oil-out (B) and spool balance port (a) of constant pressure valve (2.3), and the valve core spring mouth (b) of constant pressure valve (2.3) links to each other with the oil-in of proportional pressure valve (2.4), and oil return opening (T) links to each other with the variable piston (2.6) of Variable plunger pump (2);
D, between Variable plunger pump (2) oil-out and proportional throttle valve (2.1), parallel connection picks out the oil-out (B) and spool balance port (a) of deciding difference limen (2.2), and the valve core spring mouth (b) of deciding difference limen (2.2) links to each other with the oil-out of proportional throttle valve (2.1), decide the oil-out (A) of the oil return opening (T) of difference limen (2.2) by constant pressure valve (2.3), the oil-out (A) of deciding difference limen (2.2) links to each other with oil sump.
2, a kind of auto-speed according to claim 1 is followed the minor radius bend pipe pushing tow system that sets with pressure curve, it is characterized in that: the oil-out of proportional throttle valve (2.1) links to each other with the oil-in of check valve (5), the oil-out of check valve (5) links to each other with the oil-in (P) of reversal valve (7), the oil return opening (T) of reversal valve (7) links to each other with the oil-in of check valve (4), and the oil-out of check valve (4) links to each other with oil sump.
3, a kind of auto-speed according to claim 1 and 2 is followed the minor radius bend pipe pushing tow system that sets with pressure curve, and it is characterized in that: described reversal valve (7) is a three position four-way directional control valve.
4, a kind of auto-speed according to claim 2 is followed the minor radius bend pipe pushing tow system that sets with pressure curve, it is characterized in that:, between Variable plunger pump (2) and proportional throttle valve (2.1), connect Pressure gauge (3) at the indirect Pressure gauge of oil-in (6) of check valve (5) with three position four-way directional control valve (7).
CN 200620074829 2006-07-10 2006-07-10 Small-radius bent-pipe propelling system of automatic speed following and pressure curve setting Expired - Lifetime CN2923086Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200620074829 CN2923086Y (en) 2006-07-10 2006-07-10 Small-radius bent-pipe propelling system of automatic speed following and pressure curve setting

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200620074829 CN2923086Y (en) 2006-07-10 2006-07-10 Small-radius bent-pipe propelling system of automatic speed following and pressure curve setting

Publications (1)

Publication Number Publication Date
CN2923086Y true CN2923086Y (en) 2007-07-18

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CN 200620074829 Expired - Lifetime CN2923086Y (en) 2006-07-10 2006-07-10 Small-radius bent-pipe propelling system of automatic speed following and pressure curve setting

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100496789C (en) * 2006-07-07 2009-06-10 江阴机械制造有限公司 Automatic speed following and pressure curve setting pushing system for pipe with small bending radius
CN103089600A (en) * 2012-11-28 2013-05-08 龙工(上海)桥箱有限公司 Debugging device for variable displacement piston pump flow control valve
CN104019073A (en) * 2014-06-11 2014-09-03 徐州重型机械有限公司 Pressure control valve set, hydraulic system and engineering mechanical equipment
CN107313995A (en) * 2016-01-28 2017-11-03 邓贲 A kind of force control hydraulic pressure energy saving of system method and its energy saver

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100496789C (en) * 2006-07-07 2009-06-10 江阴机械制造有限公司 Automatic speed following and pressure curve setting pushing system for pipe with small bending radius
CN103089600A (en) * 2012-11-28 2013-05-08 龙工(上海)桥箱有限公司 Debugging device for variable displacement piston pump flow control valve
CN104019073A (en) * 2014-06-11 2014-09-03 徐州重型机械有限公司 Pressure control valve set, hydraulic system and engineering mechanical equipment
CN107313995A (en) * 2016-01-28 2017-11-03 邓贲 A kind of force control hydraulic pressure energy saving of system method and its energy saver
CN107327426A (en) * 2016-01-28 2017-11-07 邓贲 A kind of force control hydraulic pressure energy saving of system method and its energy saver
CN107313995B (en) * 2016-01-28 2018-10-19 广东天恒液压机械有限公司 A kind of force control hydraulic pressure energy saving of system method and its energy saver
CN107327426B (en) * 2016-01-28 2018-10-19 佛山市佛锐达机电科技有限公司 A kind of force control hydraulic pressure energy saving of system method and its energy saver

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Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Effective date of abandoning: 20060710

C25 Abandonment of patent right or utility model to avoid double patenting